Flood-related extreme precipitation in southwestern Germany:  development of a two-dimensional stochastic precipitation model

Ehmele, Florian; Kunz, Michael

doi:10.5194/hess-23-1083-2019

Articles | Volume 23, issue 2

https://doi.org/10.5194/hess-23-1083-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/hess-23-1083-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 23, issue 2

Research article

|

25 Feb 2019

Research article |

| 25 Feb 2019

Flood-related extreme precipitation in southwestern Germany: development of a two-dimensional stochastic precipitation model

Florian Ehmele and Michael Kunz

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Feb 2019	176	64	1	241
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Apr 2020	15	11	0	26
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Jul 2022	25	5	0	30
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Jan 2023	12	15	3	30
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Mar 2023	33	3	0	36
Apr 2023	16	1	0	17
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Jul 2023	14	16	3	33
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Oct 2025	21	12	3	36
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Dec 2025	109	30	4	143
Jan 2026	336	28	9	373
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Mar 2026	44	18	3	65
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Cumulative views and downloads (calculated since 16 Apr 2018)

Month	HTML	PDF	XML	Total
Apr 2018	106	21	4	131
May 2018	56	13	2	71
Jun 2018	19	5	0	24
Jul 2018	22	11	0	33
Aug 2018	18	6	1	25
Sep 2018	24	5	0	29
Oct 2018	17	3	0	20
Nov 2018	18	4	0	22
Dec 2018	6	5	0	11
Jan 2019	15	4	1	20
Feb 2019	176	64	1	241
Mar 2019	118	34	2	154
Apr 2019	36	20	0	56
May 2019	37	21	0	58
Jun 2019	36	14	0	50
Jul 2019	32	23	1	56
Aug 2019	20	22	0	42
Sep 2019	18	12	0	30
Oct 2019	32	10	1	43
Nov 2019	25	9	0	34
Dec 2019	21	8	1	30
Jan 2020	25	9	2	36
Feb 2020	13	4	0	17
Mar 2020	11	7	0	18
Apr 2020	15	11	0	26
May 2020	25	5	0	30
Jun 2020	25	9	0	34
Jul 2020	37	16	0	53
Aug 2020	22	11	3	36
Sep 2020	23	8	1	32
Oct 2020	11	8	0	19
Nov 2020	25	15	0	40
Dec 2020	17	10	0	27
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Feb 2021	17	8	0	25
Mar 2021	19	9	0	28
Apr 2021	23	8	0	31
May 2021	50	10	1	61
Jun 2021	41	6	0	47
Jul 2021	49	12	0	61
Aug 2021	34	13	0	47
Sep 2021	18	8	0	26
Oct 2021	10	40	0	50
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Apr 2022	13	4	0	17
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Jun 2022	9	2	2	13
Jul 2022	25	5	0	30
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Oct 2022	39	3	0	42
Nov 2022	20	11	0	31
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Nov 2023	2	0	2
Dec 2023	17	3	1	21
Jan 2024	54	4	1	59
Feb 2024	9	5	0	14
Mar 2024	17	11	4	32
Apr 2024	24	7	4	35
May 2024	27	8	6	41
Jun 2024	38	2	2	42
Jul 2024	215	11	2	228
Aug 2024	40	4	5	49
Sep 2024	12	3	0	15
Oct 2024	16	8	1	25
Nov 2024	5	3	0	8
Dec 2024	11	6	1	18
Jan 2025	16	7	0	23
Feb 2025	32	8	0	40
Mar 2025	20	17	3	40
Apr 2025	23	11	1	35
May 2025	22	6	0	28
Jun 2025	43	15	0	58
Jul 2025	30	15	3	48
Aug 2025	36	11	3	50
Sep 2025	119	24	0	143
Oct 2025	21	12	3	36
Nov 2025	38	23	2	63
Dec 2025	109	30	4	143
Jan 2026	336	28	9	373
Feb 2026	210	13	3	226
Mar 2026	44	18	3	65
Apr 2026	66	39	2	107

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Short summary

The risk estimation of precipitation events with high recurrence periods is difficult due to the limited timescale with meteorological observations and an inhomogeneous distribution of rain gauges, especially in mountainous terrains. In this study a spatially high resolved analytical model, designed for stochastic simulations of flood-related precipitation, is developed and applied to an investigation area in Germany but is transferable to other areas. High conformity with observations is found.